Wear ring for spring of friction coupling

ABSTRACT

A power drive assembly having a housing, a drive mechanism removably installed in the housing, an annular biasing spring installed in the housing for biasing the mechanism, and a wear ring arrangement including an undercut annular groove in the mechanism opening coaxially toward an end of the biasing spring and a wear ring removably installed in the groove to engage the end of the biasing spring in the assembled arrangement of the power drive assembly. The wear ring has a cross section complementary to the undercut groove cross section whereby the mechanism may be installed in the housing with the groove opening downwardly and the wear ring maintained in the groove for facilitated assembly of the power drive.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to power drives and in particular to theinstallation of spring biasing means therein.

2. Description of the Prior Art

In one form of power drive assembly, a clutch pack and a brake pack areinstalled within suitable housing portions for controlling the deliveryof power from a prime mover to the traction means of the vehicle. Theclutch pack and the brake pack may include a plurality of plates whichare biased by means of suitable Belleville springs for controlling theoperation of the clutch and brake means of the drive.

In assembling such power drive assemblies, subassembled components maybe installed within recessed portions, such as recessed portions of thehousing elements. Such installation raises a problem in connection withthe provision of wear rings for use in connection with the Bellevillebiasing springs in that the wear rings are loosely retained inassociation with the portion of the mechanism being introduced into therecess so that it is difficult to maintain the wear ring in accuratedisposition for engaging the Belleville springs properly in theassembled arrangement. Conventionally, the mechanism is installed by avertical downward movement into the recess which is disposed to openupwardly and, thus, the wear ring tends to fall from the mechanismpresenting a serious problem in the assembly operations.

In one conventional power drive assembly, the wear ring mounting problemis present relative to both the clutch pack and the brake pack as eachis similarly installed by movement thereof downwardly into an upwardlyopening recess portion of a housing element of the assembly.

SUMMARY OF THE INVENTION

The present invention comprehends an improved power drive assemblyarrangement wherein the wear ring is effectively maintained inassociation with the mechanism to permit facilitated installation of themechanism into the outwardly opening recess of the housing element asdiscussed above and assuring that the wear ring is properly accuratelydisposed relative to the Belleville spring in such assembly.

The invention more specifically comprehends the provision of cooperatingundercut means on the wear ring and mechanism groove to maintain thewear ring in association with the mechanism sufficiently to permit suchinstallation while yet permitting ready installation and replacement ofthe wear ring when desired upon disassembly of the power drive assembly.

In the illustrated embodiment, the mechanism groove is provided with anundercut cross section and the wear ring is provided as a split ringwith a similar, or complementary, undercut configuration whereby thewear ring is readily removably maintained in the mechanism groove duringassembly of the power drive.

In the illustrated embodiment, the wear ring carried by each of thebrake pack and clutch pack are arranged in the novel manner discussedabove so as to permit facilitated assembly of both the clutch and brakein the power drive assembly.

The invention further comprehends provision of a similar wear ringarrangement in the housing for engaging the opposite end of theBelleville spring assembly, thereby permitting the assembly of the powerdrive with the housing portion either uppermost or lowermost, asdesired.

In the illustrated embodiment, the undercut surface extends at an angleof approximately 5° to 10° to the axis of the annular groove and may beprovided in only one sidewall of the groove to provide facilitatedinstallation and removal of the wear ring while yet providing positiveretention thereof in the groove during such assembly of the power drive.

Thus, the power drive assembly of the present invention is extremelysimple and economical of construction while yet providing the highlydesirable features discussed above.

BRIEF DESCRIPTION OF THE DRAWING

Other features and advantages of the invention will be apparent from thefollowing description taken in connection with the accompanying drawingwherein:

FIG. 1 is a fragmentary diametric section of a power drive assemblyhaving an improved wear ring arrangement embodying the invention;

FIG. 2 is a perspective view of a wear ring for use therein; and

FIG. 3 is a fragmentary enlarged diametric section showing theassociation of the wear ring and Belleville spring in greater detail.

DESCRIPTION OF THE PREFERRED EMBODIMENT

In the exemplary embodiment of the invention as disclosed in thedrawing, a power drive assembly generally designated 10 includes aclutch pack 11 and a brake pack 12. An input drive shaft 13 is connectedto a brake housing 14 through the clutch pack 11 for controlled drivingoperation of an associated apparatus such as a tractor vehicle.

As shown in FIG. 1, the assembly may include a clutch housing 15 towhich the clutch pack 11 is removably secured as by bolts 16. The brakepack 12 may be removably secured to the brake housing 14 by suitablemeans, such as bolts 17.

Clutch pack 11 includes a plurality of clutch plates 18 which areadapted to be biased by a Belleville spring assembly 19 received in arecess 20 of the clutch housing 15 in the assembled arrangement of thedrive assembly.

Brake pack 12 includes a plurality of brake plates 21 adapted to bebiased by a second Belleville spring assembly 22 received in a recess 23of the brake housing 14 in the assembled arrangement of the power drive.

As further shown in FIG. 1, one end 24 of Belleville spring assembly 19is adapted to the engaged by a wear ring 25 carried by the clutch pack11 and the other end 26 of the Belleville spring assembly 19 is adaptedto be engaged by a wear ring 27 carried by the clutch housing 15.

Similarly, one end 28 of the Belleville spring assembly 22 engages awear ring 29 carried by the brake pack assembly 12 and the opposite end30 of spring assembly 22 engages a wear ring 31 carried by the brakehousing 14. As shown in FIG. 1, the wear ring 27 is received in asuitable groove 32 provided in the clutch housing 15 at the inner end ofrecess 20 and the wear ring 31 is received in a suitable groove 33 inthe housing 14 at the inner end of recess 23. Wear ring 25 is receivedin a suitable groove 34 carried by a piston 35 of clutch pack 11 andwear ring 29 is received in a suitable groove 36 carried by a piston 37of the brake pack 12.

Referring now to FIGS. 2 and 3, the wear rings 25, 27, 29, and 31comprise split rings adapted to be readily inserted into the respectivegrooves 32, 33, 34 and 36. As best seen in FIG. 3, the radially outersurface 38 of the wear ring is made to be frustoconical to correspond toan undercut surface 39 of the groove receiving the wear ring. In FIG. 3,the association of wear ring 29 with piston 37 in groove 36 isillustrated, the undercut surface .[.29.]. .Iadd.39 .Iaddend.of thegroove 36 being shown as having an angle to the axis of the annulargroove in the range of approximately 5° to 10°.

FIG. 3 illustrates the arrangement of the apparatus in the assembledcondition wherein the brake pack 12 is installed in the recess 23 of thebrake housing 14 so as to bring the wear ring 29 into engagement withthe end 28 of spring 22 to provide the desired biasing of the brakeplates 21. In effecting this assembly, the brake housing 14 may bearranged with the recess 23 opening upwardly permitting the springassembly 22 to be dropped into place concentrically within recess 23 andthen have the brake pack 12 brought downwardly with the wear ring 29being retained in the groove 36 suitably to effect the desired insertionof the piston 37 into the spring assembly and bring the wear ring 29into engagement with the spring assembly, as illustrated in FIG. 3.

As will be obvious to those skilled in the art, a reverse arrangementmay be utilized in assembling the clutch pack 11 to the clutch housing15. Thus, the assembly may be inverted so that the recess 20 of theclutch housing 15 may open upwardly so that a similar assembly of theclutch pack 11 with the wear ring 25 being retained in the groove 34being effected during such assembly may be effected.

Alternatively, the housing 15 may be installed with the clutch packextending outwardly in the arrangement of FIG. 1 with the springassembly 19 installed on the piston 35 and with the housing 15 beingbrought down about the assembly. During such movement of the housing 15downwardly about the spring 19, the wear ring 27 is retained in thegroove 32 in a manner similar to the retention of wear ring 29 in groove36, as discussed above.

As shown in FIG. 3, the groove receiving the wear ring may have a radialextent greater than the radial extent of the wear ring so as to permitfacilitated installation and removal of the wear ring when desired. Asshown, the radially inner surface 40 of the wear ring may be rightcircularly cylindrical and spaced radially outwardly of thecomplementarily right circularly cylindrical radially inner surface 41of the groove.

As further shown in FIG. 3, the wear ring preferably has an axial extentslightly greater than the depth of the groove so as to permit theexposed outer surface 42 thereof to engage the juxtaposed end of thespring assembly (which, in FIG. 3, comprises end 28 of spring assembly22).

The wear rings may be formed of any suitable resilient material, such asmetal, for providing long, trouble-free life in the seating of thespring assemblies in the apparatus 10.

The foregoing disclosure of specific embodiments is illustrative of thebroad inventive concepts comprehended by the invention.

The embodiments of the invention in which an exclusive property orprivilege is claimed are defined as follows:
 1. In a power driveassembly having a housing, a drive mechanism removably installed in saidhousing, and an annular biasing spring installed in said housing forbiasing said mechanism, an improved wear ring arrangementcomprising:means on said mechanism defining an undercut annular grooveopening coaxially toward an end of the biasing spring; and a .Iadd.split.Iaddend.wear ring removably installed in said groove to engage said endof the biasing spring in the assembled arrangement of the power driveassembly, said wear ring having a cross section complementary to theundercut groove cross section whereby the mechanism may be installed inthe housing with the groove opening downwardly and the wear ringmaintained therein to removably engage said end of the biasing spring.2. The power drive assembly of claim 1 wherein said housing is providedwith an annular groove receiving a second wear ring to axially engagethe opposite end of the biasing spring in the assembled arrangement ofthe power drive assembly.
 3. The power drive assembly of claim 1 whereinsaid housing is provided with an annular groove receiving a second wearring to axially engage the opposite end of the biasing spring in theassembled arrangement of the power drive assembly, said housing groovebeing undercut and said second wear ring being complementary thereto tobe releasably maintained therein.
 4. The power drive assembly of claim 1wherein said biasing spring comprises a Belleville spring.
 5. The powerdrive assembly of claim 1 wherein said biasing spring comprising aplurality of coaxially stacked Belleville spring elements.
 6. The powerdrive assembly of claim 1 wherein said undercut groove defines a rightcircularly cylindrical side surface and an opposite frustoconical sidesurface.
 7. The power drive assembly of claim 1 wherein said undercutgroove defines a radially inner right circularly cylindrical sidesurface and an outer frustoconical side surface.
 8. The power driveassembly of claim 1 wherein said undercut groove defines an undercutfrustoconical sidewall extending at an angle of approximately 5° to 10°to the axis of operation of the annular groove.
 9. The power driveassembly of claim 1 wherein said wear ring .[.comprises a split ringhaving.]. .Iadd.has .Iaddend.at least one frustoconical radially facingside surface.
 10. The power drive assembly of claim 1 wherein said drivemechanism comprises a clutch assembly.
 11. The power drive assembly ofclaim 1 wherein said drive mechanism comprises a brake assembly. .Iadd.12. In a power drive assembly having a housing, a drive mechanismremovably installed in said housing, and an annular biasing springinstalled in said housing for biasing said mechanism, an improved wearring arrangement comprising:means on said housing defining an undercutannular groove opening coaxially toward an end of the biasing spring;and a split wear ring removably installed in said groove to engage saidend of the biasing spring in the assembled arrangement of the powerdrive assembly, said wear ring having a cross section complementary tothe undercut groove cross section whereby the housing may be installedabout the mechanism with the groove opening downwardly and the wear ringmaintained therein to removably engage said end of the biasing spring..Iaddend..Iadd.
 13. The power drive assembly of claim 12 wherein saidbiasing spring comprises a Belleville spring. .Iaddend..Iadd.
 14. Thepower drive assembly of claim 12 wherein said biasing spring comprises aplurality of coaxially stacked Belleville spring elements..Iaddend..Iadd.
 15. The power drive assembly of claim 12 wherein saidundercut groove defines a right circularly cylindrical side surface andan opposite frustoconical side surface. .Iaddend. .Iadd.
 16. The powerdrive assembly of claim 12 wherein said undercut groove defines aradially inner right circularly cylindrical side surface and an outerfrustoconical side surface. .Iaddend..Iadd.
 17. The power drive assemblyof claim 12 wherein said undercut groove defines an undercutfrustoconical sidewall extending at an angle of approximately 5° to 10°to the axis of operation of the annular groove. .Iaddend..Iadd.
 18. Thepower drive assembly of claim 12 wherein said wear ring has at least onefrustoconical radially facing side surface. .Iaddend..Iadd.
 19. Thepower drive assembly of claim 12 wherein said drive mechanism comprisesa clutch assembly. .Iaddend..Iadd.
 20. The power drive assembly of claim12 wherein said drive mechanism comprises a brake assembly. .Iaddend.